Machines for compressing meat



J. OPIE June 26, 1962 3 Sheets-Sheet 1 Filed Nov. I5, 1959 i MJ* vl/w. Sv Qmmmmmul wm mm im e m u 'Z r f EL@ m Q R P m mw 0 I um T um A N im m w um n BR N n NV fh AIT L1 w Y HV IHUUUJMUUUUUIUUUIMUUH B S d 9v rhlL.

q. @PIE 3,040,654

June 26, 1962 MACHINES FOR coMPREssING MEAT Fi led Nov. 3, 1959 5 Sheets-Sheet 2 a6 FIG' .3 P12125' 36 7/ as 835 3a a a2 69 7/ 69 L /6 f 3f 36 44 44 4:5 ff if gu' 73 l?" mn T 3 6 4a a9 68 @h 4f 45 494 901% 35 5l S 93 x 57 1 5] 93:

l *llnl l /NVE/vr'o/P John 020;@

A OR/V'E Y June 26, 1962 J. OPIE MACHINES FOR COMPRESSING MEAT 3 Sheets-Sheet 3 Filed NOV. 3, 1959 /NVE/VTOR Em ,Mm Opf@ pression means in loweredposition.

. 3,046,654 MACHINES FOR CGMPRESSING MEAT John Gpie, 64 S. Herbert Road, Riverside, Ill.

Filed Nov. 3, 1959, Ser. No. 850,551 8 Claims. (Ci. 10Q- 53) This invention is directed to novel'improvements in machines for compressing meat or pieces and particles of meat into elongated predeterrr1ined shapes and for pressing and -ejecting the formed masses intoeither casin'gs, cans or other containers.

It is animportant object of my invention to'provide an nautomatic machine for lpressing together masses of finely divided meat oriof meat pieces into desired "elongated shapes and forms to provide for their insertion'and positioning in containers or casings, and which machines include an elongated removable meat receiving receptacle,v

mold, trough or hopper, a movably mounted pressure plate; a novel air-actuated or fluid actuated mechanism Vfor lowering'and for raising selectively said pressure plate with respect to said receptacle or trough; and novelairoperated mechanism for pushing out the compressed meat through' a restricted outlet member and into suitable receptacles, packages and casings; and manually operable means for selectively actuating the' aforesaid mechanism. A further 'object'and accomplishmentof my invention vis the provision `of a compression receptacle or hopper or Ymold having an upper 'opening an'dadaptedto receive meat or the like, and an air-operated or liuidoperated piston and compression plate 'adapted to compress the attest vl="atent;ed June 2 6, 1962 ICC. e

Y Y 2 valves and taken on a line indicated byline 8--8 of FIG. 7;

Referring to FIGS. 1 and 2, numerals 10 and 11 designate two elongated anged metal side bars which are connected by a Ytransversely extending horizontal plate 12 and also connected at their'ends by transversely extending walls 134 and 14; AAforesaid bars and plates are suitmeat into desired form, and manually controlledair-op-M n erated mechanism for selectively vpressing and discharging the compressed meat from the machine; f

A further object of my invention is the provision of a machine having the novel features recitedin-the two foregoing paragraphs and vin which the compression plate is removably mounted relative to said vmeat receptacle land which has novel lever mechanism for selectively elevating said compression plate and moving it transversely-into lpositions where it will not obstruct the upper opening of the compression receptacle'to thereby facilitate easy refloading of said compression receptacle, -and which includes an air-operated ypiston slidable inf-the Icylinder for f selectively-raising and lowering said compression 'plate and moving it transverselyand which further includes a second air-operated piston and plunger with respect to 'an -air cylinder for pushing the compressed meat mass Ythrough a restricted outlet.

yOther and important objects of my inventionhwill be apparent from the annexed speciication and claiinsg-` On the drawings: .u f: .1 1 Q FIG.:I l -is a top plan view'of my novel'meat'pressing and packaging machine FIG. 2 is a cross sectional .View on afvertical planefinv dicated by line 2--2 of FIG. l.

FIG. 3 is an enlarged partiallyfcross sectional view ably connected at their junctures to form a substantially rectangular frame which is normally supported by four legs 15,' two of whichare illustrated in FIG. 2. A transversely extending top wall 16 extending from therear end of the machine 'toward its middle portion also connects the side bars' 10 and 11. Removablyy mounted on. the top plate 16 is a flanged metal panel 17 which has its rear edge portion 1S ,and its `forward edge portion bent angularly toV Yform'a ange 19; as illustrated in FIG. 2. Mounted Ain the chamber of 'the'rear of the machine below Vthe top wall or top plate 1 6 is a horizontal air cylinder 2 0 in which a' slidable mountedpiston 21 having piston rod 22 thereon. The forward end of said piston rod 22 has a Aplunger 23 secured thereon.` The rear end of the cylinderV 20 has a threaded nipple thereon and which is secured to one end of an air pipe 24 as shownin FIG. 2. The forward end of the cylinder 20, has' a nipple thereon "andwhich is secured an air pipe 25. Said airpipes are 'connected to a four-way air control valve'26 shown in 'cross-section at the right of FIG. 8, said pipe 25 being connected to the right-hand nipple of the housing of air valve 26 and Yailpipe 24 being connected to the left hand nipple of the air valve26. 7 f

Referring `to FIG. 2, numeral 27 is an air pipe con- 'nectedl to its "compressed air source and tothe valve-28 and tothe T 29 as shown in FIG. 2. Numeral 36 desig- 'nates an air pressure gauge ofconventional construction `mounted in T 29, T 29 is connectedbya pipe r31 tothe Ylower nipple of the air control valve 26. The air control valve 26 is held and secured'to-an annular metal bracket 32 which has one end secured to one of the side bars 10. Air control valve 26' has a rotatable valve element 33 journalled therein and which-'has two separate passages therethrough as illustrated at the Vrightfof FIG. 8. `Said valve 26 also'has an exhaust port .34 therein as shown at-the right of FIG. 8. l Valve element33 has 'a projecting shaft portion as il- Alustrated in FIG. 2 and which has a reduced end to which vvreduced end portion is secured an arm 33a; One end of a slotted lever 35,` is pivoted by a pin to arm 33a,"the operation'of which lever will be described hereinafter'.

taken on line 3 3 of FIG. 2 andshowing certain parts in elevation.

t FIG. 4 is a cross sectional view taken on' a vertical 1ongitudinal plane and showing'the air-operated mechanism, with parts broken away, for operating the compression mechanism. z

FIG. 5 is a cross sectional viewtaken Ohraavertical plane transversely of the machine and showing thecom- '-FIG. 6 isf an enlarged perspective viewv of the meat'rewith.

.. FIG; 8 is a cross sectional view of `said 'air control -ceptacle and nozzle andshowing theV pressure -member y Removably mounted in the forward portion of the supportingistand or tablefis an Velongated `passa'ged metal fhoppenm'old or receptacle 36. Said receptacle or mold `Aor 'hopper 36 opens' upwardly and has'upper peripheral 'horizontal extending anges S75-which normally rest on horizontal plate of'thestand.

The fowarden'd wal1'40 ofsaid vreceptacle or mold 36, as'. shownin FIG. 6, is secured permanently to the hopper,` for example, byl welding. The inner endv of the spout ornozzle 41 is welded to the end wall 40, surrounding the outlet opening and its lower wall portion is in alignment with'the bottom portion of the hopper Ior mold 36; l Accordingly, said hopper 36 and said spout `41 are connected and rigidY relative to each other. It will .be notedZ that the end wall 40 has its .edge or liange portions'projecting outwardly asillustrated in FIG. 6, and a rigid pin 42 is mounted in the lower portion of said ange Vv.of-the end wall 4 6, which said pin provides for engagekmentof `a suitable hook 42a pivoted on the machine and illustrated in cross sectionin FIG. 2." The engagement 0 `ofsaid hookl42arwithl-pin 42 releasably anchors said hop- Vlugs 69 opening in end wall 40 which leads from said hopper 36 -to spout 41. Y

The rear end wall of the hopper or mold 36 is provided q with `an integral annular flange 38 which denesa round hole through which the piston rod 22 of the reciprocal plunger slides. f Y Y The spout or nozzle 41 is adapted Vto have either flexible casings. or cans or receptacles mountedthereover.

In FIG. 2 a tubular Viiexiblecasing 43 is illustrated as partially slipped` andfolded'ovcr a broken otf segment of the nozzle 41.

It will be noted `that the hopper or mold 36 hastwo longitudinal U-shaped flanges 36a integral with its side wall portions, as indicated in FIGS. 3` and 5, and which removable seatV upon the upper faces of the horizontal portions of the angular plates 47, 48. Two depending Vmounting bars 44 form continuations of` the Vhorizontal portions 16. Y Y

As shown in FIGS. 3'and 5, a right-angled bracket 45 has one end secured by a bolt to one of said mounting-bars 44- and its other end secured by a bolt 46 to lower ilange portion of the side wall 47. As shown at the left ofVK FIGS. 3 and 5, a U-shaped wall 48 has its upper edge secured by welding to the upper edge of the vmounting bar 44, and its lower portion has an apertured ange 49.

Secured on the lower face of the mounting .bracket 45 is a depending vertical closed air cylinder 50 which is secured by tie bolts 51 to said bracket. Said cylinder 50 may alternatively be of the hydraulic type.Y Said cylinder has a passaged end plate in which is mounted a piston rod `52 on the inner end of which is mounted a piston 53, as illustrated in FIG. 2, said piston kbeing reciprocal in said cylinder 50. The cylinder 50 has an upper air inlet tting 54 and a lower air inlet and exhaust tting 55. Said upper air passage tting 54 is connected by an air hose 56 to the inlet tting of a four-way air control valve 58, shown in cross section in FIG. Sand in .perspective in FIG. 7. The lower tting S5 of cylinder 4which are adapted to selectively communicate the respective ports or passages of valve housing `58. Numeral 62 designates an outlet port or passage in the upper portion of the valve housing 58' which is adapted to' be communicated with the hose 57 in a certain position of said valve element 6I, `as illustrated in FIG. 8.' Said valve Vhousing 58 is suitably secured by a bolt to a right angled apertured bracket 63 which is suitably secured to the side wall 48 for example, by bolts (not shown). The valve element-'61 has an integral projecting shaft portion 64 as illustrated in FIG. 7, on which is mounted a short apertured arm or lever 68, as shown'in FIG: 7.

Secured on the upper wall v16 are two spaced apart inwhichy are mounted two inwardly extending relatively short horizontal pins 70,V as illustrated in FIGS.

A'1 and 3. Pivotally mounted on the opposed pins 70 of the spaced part lugs or ears 69 is a manually operable plate-like transversely extending lever 71, as shown in FIGS. 1, 3 and 5. Y Said `plate-like lever 71 has its free edge an'gularly bent as indicated.

As shownin FIG. 5 an apertured ear 72 is securedY by welding or the like to the underside of the plate-like lever 71, and a metal connecting link 73 has one of its angularly bent ends pivotally connected to vear 72 and its other angularly bent end ,pivotally connected in the aperture of the arm 68. The link 73is of such a length that 'elevation of the Yplate-like lever 71V will cause the arm 68 to beV raised upwardly and the valve element 61 would be rotated to cause the said valve element to communi- 4 cate the air intake pipe with the interior of the upper end of the vertical cylinder S0, to thereby cause the piston 53 to be moved downwardly. The operation elected thereby will be subsequently described.

Secured byva pair of opposed nuts on the lower threaded end of the piston rod 52 is a cross bar 80 whose opposite ends are'reduced and on which said opposite ends are pivotally mounted the lower ends of levers 81 and 82, as shownin FIG. 4. Said levers-81 and 82 have their upper ends L-shaped and angularas illustratedinfFIGS 3 and 5 to form a substantial hook or yoke. Mounted on 4the upper end portions ofY the levers 81 and 82 by rivets or pins 83h are two recessed andapertured brackets 83a respectively said rivets 83b extending through holes in said levers 81 and 82.- An elongated horizontally extending U-shaped saddle or bracket 83 is secured by welding to the two brackets 83a, as Yillustrated in cross section in FIGS. 3 and 5.

Y Number 8S designates a pressure member or pressure plate of metal and of arcuate cross section which has a central upwardly extending reinforcing web or rib 86 secured thereto by welding or lthe like. Rib 86 is removably mounted within the saddle 83, as shown in-FIG. 4, so that` said pressure plate may be easily removed for easy cleaning.

Secured by welding in the opposite ends of the pressure plate 85 and said web 86 Vare angularly bent end plates 87, as illustratedin FIGS. land 4.

`Said. pressure plate 85 is of a length width to Ysnugly t within the hopper 36 so that its lateraledges Vadjacent the end lwalls upon vertical movement of the pressure plate, as illustrated lin FIG. 5. Y. rIlle horizontally extending portions of end plates 87 engage the end plate 40Yand llange 31 upon full downward movement of the pressureplate to limit the downward movement of said pressure plates.' Y f The top wall 16 has a pair of transversely extending slots 88|` therein which are spaced apart, as illustrated in FIG. 1, and the levers 81 and 82 extend and move through said slots. Y Y

Referring to FIGS. 3 and S, a pair of arcuate metal guide tracks'89, have their opposite ends secured by .welding or the like to the lower edge portion of the bar 44 and to theunder face of the top wall 16.V Journalled by pins on each of the middle portions of each of the .f

. 82, 4said rollers' 90, will rollably engage inside curved and to expose the upper o faces of they guide tracks 89 to thereby cause said levers or yokes 81 and 82, to Vswing and pivot to the side edge Aof the machineY toward Athe side wall 47 thereof, to the upper position illustrated in FIG. 3. This upward sidewise swinging movement also carries with it the pressure plate to thereby move saidV pressure plate transversely ning of the hopper for reloading of meat or the like. l

As shown in FIGS. 3 and 5, the intermediate portion -of the levers 81 and 82 have secured thereon perpendicular transversely extending headed stub shafts 91 and 92. On said stub shaft 92 cis Vjournalled a [flanged roller 93 and which extends through the slot of lever 35V and slidably engages said lever 35. n

VWhen the levers 81 and 82 are moved' to their lowermost position as shown in FIG.,5, the stub shaft 92 and roller 93 pull the lever 35 down to open the valve element of valve 26-to admit compressed air into the rear end of cylinderl 20 and to project the plunger 23 to thereby push the compressed meat from the hopper into and through nozzle 41 and into a container or casing mounted over theoutlet of said nozzle.

One end of a spring 9'4 is anchored in a hole in flange 49 (see FIG. 3) and lits opposite end is anchored to the intermediate portion of stub shaft 92 as shown in FIGS. 2 and 3. A similar second spring 95, shown at thelleft of FIGS. 2 and 4, is connected to stub shaft 91and to the flange 49. As the levers 81 and 8.2 are moved down# wardly the springs 94 and 95 pull the levers 81 and A82 side-wise and toward the center of the machine and cause the roller to ride the curved face of tracks 89. As`the levers descend the pressure plate 85 will be moved in an arcuate path to properly enter the hopper between its parallel side walls.

Y On upward movement of levers 81 and 82, the pressure plate follows an arcuate path upwardly with the curved guide tracks 89 being engaged by the rollers 90.

I provide a spring-impelled means for quickly raising the levers 81 and 82 and the pressure plate S5- from its extreme lowered position so that the uppermost position of the pressure plate is attained more quickly to permit quicker reloading of the hopper. The accelerating elevatl` ing means comprses a helical spring 96 shown in FlGS.- 3 and 5 land which has one hooked end thereof hooked on a headed pin 97 secured on the inside face of the wall 47. The lower end ,of spring 96 is hooked to the horizontal pin which pivotally connects lever 35 and arm 33a of valve 33, as shown in FIGS. 3 and 5.

Upon downward movement of levers 81 and 8.2 and lever 35 the spring 96 is stretched, `when trhegcompressed air is released from ,theAupper part of the lower cylinder 50 by the operation yof the valvepreviously described, the action of spring 96 will immediately start an upward movement of the levers 81 and 82 and the pres-` sure plate S5 and an opening of the valve 26 before the air pressure is built up in the lowerpart of cylinder 50. While such compressed air belowpiston 53 and in cylinder 50 ,will raise said piston 53, levers 8=1 `and 82 and said pressure plate `after a short interval whenr it has attained suiiicient pressure, such interval and delayed upward movement is avoided by the returning `action of said spring 96. g

The operation is as follows. The meat or other food pieces to be packaged and pressed are placed upon the horizontal work panel 17. The machine is-set with the levers 81 and 82 yand the pressure plate 85 in uppermost position as illustrated in FIGS. 2 and 3. The desired quantity of meat or food pieces are placed in the hopper shaft 64 to thereby move the valve element 61 to admit compressed air from the compressed -air-A Source through the pipe to the upper port of the lowervertical cylinder 50. This causes a descent of the piston 53 and piston .rod 52 and offset cross arm 80 and levers 81 and 82 to due to the engagement of roller 90 with the arcuate track 89, as shown in FIG. 3.

yAs the pressure actuated movement downward continues, the pressure plate 85 will continuerto compress the mass of meat or food into a substantially cylindrical form within said hopper,36 and until said pressure 'plateis stopped by the angularly extending .end plates ,87. which engage the stationary parts as illustrated in FIG. '4. Y

When the lever S2. reaches a predetermined 4point in its downward movement during which lthe roller 93 slides wardly on lever to rock the arm 33a and.valve -element 33 to open said valve to cause compressed airto` A enter the rear end of cylinder-20 through the tube '24.'

This causes the `piston 2.1to move horizontallylan'd-vpush f 70 in the slot of lever 35, the said roller 93 will pull downwhile the pressure plate 85 is in compressing position.'

This resultsV in theV compressed mass of' rneat or food to be pushed out through the outlet opening ofthe hopper or. mold, through the opening of the mountingplate 40 and `throughtheI nozzle 41fand into either a exible casing which has been slipped over said nozzle or into a bag or other container in which the product is to be enclosed.A The position of the partswhile'said valve 33 is open and during the meat ejectingstep are illustrated inFIGS. 4 and 5.

. When the plunger 23 has been projected its,full dis. tance and the meat mass ejected, the, operator will lower the platelike lever 71 to its originalldownward position,

- to thereby operate the valve 33` to communicate the cylinder 20 with ,the exhaust port of said valve and simultaneously cause compressed airv to be introduced through pipe 25 into thevk forward portion' of cylinder 20 to :cause `retraction of piston 21 and plunger 23 toy return 'the latter toits fully retracted position.

' At the same time that the operator pushes downward the lever 71, the valve 61 is operated to admit compressed air through fitting 55into the lower. part of the-vertical air cylinder50' to cause V'piston 53 to be raised upwardly to in turn raise levers 81 and 82fand the Vpressure plate 85. The said upward movement is in an arcuate path from the position illustratedin FIG. 5 to, the upperV andout vof thefway positionillustrated in FIG. 3,'thi's due to .the engagement oflroller k90 with arcuate track S9.' This results in the'positioning of pressure plate 85 to expose for fr'ee loading the'rhopper openingof; the said hopperormold 36.! f, Y.,

1As fsoon 'as the plunger 23 has reached' the end of its forward projectingstroke, and as soon' asthe valve 61 is operated to start admission of compressed air into the lower end of the lvertical cylinder 50, the auxiliary. spring 9.6 starts to pull upward'thecrank arm 33a, the lever 35 and the levers $1 and 82, this without vwaiting for the air pressure under the piston 53 to build up sufficiently to'lift the levers 81 and 83 and the'pressure plate into' or mold 36, for example, to substantially ll same. 'I'here-y l upon the operator will raise the plate like lever 71 to pull upwardthe link 73 and the` crank arm `68 to rock ,thel

operating position. Accordingly the .actions vof spring 96 accelerates the `upward movement of levers 81` and 82and pressure plate 85, to thereby more quickly permit the operator to reload the said hopper.

' While I have described the preferred form of my in-v vention as having'air-actuated pistons, aircylinders, and air valves,`l` desire it to be understood that the uid medium to operatey said zylinders maybe liquid and the eylinders and vcontrol valves may be'of `the hydraulic type and which will equivalentlyv operate as herein def scribed. e

" As many changes could be made 'in the above 4construction, and asmany apparently widely different embodimentsof my invention` within the scope of the claims eo'uld be constructed without departing from the spirit and scope thereof, it is intended thatall matter contained in the accompanying speciflcation'rshall be interpreted as illustrative and'not in a limiting sense. Y -r Iclaim:l v Y u 1. In a machine for selectively compressing meat or the like; a table/having a central opening; an upwardly opening hopper mounted in said.k table and having opposite end openings;` a depending air cylinder; a piston and piston rodv slidable in said cylinder; a` pair of' upwardly extending hookfbearingl levers pivotally connected to said piston rod and extending above said hopper, a pressure Vplate connected nto the upper Vends of said levers andadapted to be movedl intoand'out of said hopper; an air controlled valve having -air outlets communicatively connected fto the opposite ends of said cylinder;

amaniially operable lever pivoted adjacent said table; a link pivotally connecting said manually operable lever and said valve;` asecond aircylinder extending' horizontally; a piston and piston rod'in-said second air cylinder;

accesar n a plunger on the outer-end of said last mentioned pistonV rodv and adapted to ,move substantially horizontally in said hopper; a ysecond air control valve; pipes connecting the outlets of said air control valve and' said second cylinder; said second air control valve being connectable to a compressed air'source; a slotted lever pivotally connected to said second air control valve and to one of said hook-bearing levers; arcuate trackmeans on said table said track means being adapted to impart trans- Y,

. levers being adapted to move said slotted lever to open said second air control valve to cause projection of said plunger to thereby push a compressed meat massV through and from said hopper.

2. In a machine for compressing meatand the like; a table; an upwardly opening hopper `mounted in said table and having opposite end walls Vhaving Vopenings therein; an air-operated mechanism Vbelow said table; means for controlling said-air-operated mechanism; up-

wardly extending levers connected to said air-operated V mechanism and extending above said hopper; aY pressure plate connected to the upper ends of said levers and adapted to lbe moved into and out of said hopper;

a second air-operated reciprocating mechanism adjacent one end wail of said hopper and including a reciprocal plunger slidable in said hopper; a control valve for said last mentioned air-operated mechanism; said rst mentioned air-operated mechanism being adapted to raise and to lower said levers and said pressure vplate with respect to said hopper; said plunger, when projected, being adapted to press a compressed meat mass from said hopper, means for guiding said levers-in an arcuate path during upward and downward movements thereof to position said pressure plate to expose said hopper for reloading; and a slotted link connected to one of said levers and to the control valve of said secondmentioned mechanism to cause said plunger to be moved throughA said hopper upon full descent of said pressure plate.

3. In a machine for compressing meat and the like; a table; an upwardly opening hopper mounted in said table and having opposite end walls and openings therein; an air-operated mechanism below said table, means for controlling said air-operated mechanism including a manually operable lever; upwardly extending leversconnected to said air-operated mechanism and extending above said hopper; a pressure plate connected to the Yupper ends of said upwardly extending levers and adapted to be moved into and out of said hopper; a second air-operated reciprocating mechanism adjacent one end Wall of said hopper and including a plunger slidable in said hopper;

Y a control valve for said last mentioned air-operated mechanism; said first mentioned air-operated mechanism being adapted to raise andV to loweril said upwardly extending levers and said pressure plate into and out of said hopper; said plunger, when projected, being adapted to press a compressed meat mass from said hopper, a slotted lever operatively connecting one of said upwardly extending levers and said valve of said second air-operated mechanism whereby said second air operated mechanism will be actuated, upon descent of said upwardly extendingV levers, to cause projection of said plunger; and spring means connected to said upwardly extending levers to move same transversely to position said pressure plate to expose the said hopper.

4. In a machine for selectively compressing meat or connected to said table; a piston and piston Arod slidable in said cylinder; apair of upwardly extending levers pivotally VconnectedV to said piston rod and extending above said hoppenac'ompression plate removablyv connected to the lupper portion ofsaid levers and adapted to be moved intoV and out of said hopper; manually operated valve means` connectedto the ends of said cylinder; a second ,air cylinderconnected to said table. and extending Vsubstantially horizontally; a piston and piston rod in said second air cylinder; a plunger on the outer end of said last men- Y tioned piston rod and adapted to reciprocate longitudinally in said hopper; valve means for controlling compressed 'air to said second air cylinder; a link pivotally connecting one of said Vlevers and said last mentioned Vvalve means whereby said valve means of said second cylinder will be operated upon full descent of said levers tolcause projection of said plunger through said hopper; an arcuate guide track mounted on said table adjacent one orfsaid levers; and spring means for holding said levers in engagement with said arcuate track and for upward and downward movement in an arcuate path to position said pressure plate adjacent one side of said hopper in its upper position and to move said pressure plate to enter the hopper opening of said hopper upon downward movement of said levers.

5.l In a machine for selectively compressing meat or the like; a table; an upwardly openinghopp'er in said table and havingropposite end openings; a lower air cylinder connected to saidA table; a piston and pistontrod slidable in said cylinder; a pair of upwardly extending levers pivotally connected to said piston/rod and extending above said hopper; Va .compression plate removably. connected to the upper portion of said levers and adapted to be moved into and out of said hopper; manually operated valve means connected to Vthe ends of said cylinder; a second air cylinder connected to said table and` extending substantially horizontally; a piston and piston rod in said second air cylinder; a plunger on the outer end of said last mentioned piston rod and adapted to reciprocate in said hopper; valve means lfor controlling compressed air to the ends of said second `vair cylinder; a link pivotally connectingone of said levers and said last mentioned valve means whereby said Valve means of saidsecond cylinder will be operated upon full descent of ,said levers to cause projection of said plunger through said hopper; an arcuate guide 1 track Yin an arcuate path to position said pressure plate to enter the hopper" opening of said hopper upon downward movement of said levers, and a springpconnecting said link and said tableand adapted to open said valve means of said lower air cylinder ,to cause elevation of said compression plate. 1 y Y t `6`. Ina' machine for selectively compressing meat or the like; aY table;fan upwardly opening hopper in said table andhaving endtopenings; a lofwerY air cylinder con-A nected to said table; a piston andpiston rod slidable in the like; a table; an upwardly opening hopper in said table said cylinder; a lever'pivotally `connected to said piston rod and extending above'said hopper; Va compression plate connected to the upper portion of Vsaid lever and adapted rtotbe moved'into and out of said hopper; manually operated, valve means'connectedgto *saidY cylinder; an air op erated mechanism connected to said table and extending substantially horizontally; a plungertslidable in said hopper and operably connected tosaid last mentioned air operated-mechanism; valve means for controlling the air tothe ends of said air operated mechanism; a link pivotally connecting said lever and said last mentioned valve means whereby said valve means of said air operated mechanism will be operated upon descent of said lever and to cause projection of said plunger through said hopper; an arcuate guide track mounted on said table adjacent said lever and adapted to guide` said iirst mentioned lever; and spring means for holding said lever during upward and downward movement in an arcuate path to position said pressure plate adjacent one side of said hopper and to move said pressure plate to enter the hopper opening of said hopper upon downward movement of said levers.

7. In a machine for compressing meat or the like; an elongated supporting table; an elongated upwardly opening passaged hopper removably mounted in said slot of said table, said hopper having openings at both ends thereof; a downwardly extending cylinder mounted on the bottom of said table; said cylinder being adapted to receive a ilowable medium; a piston and piston rod in said cylinder; a pair of elongated hook-like levers connected at their lower ends to said piston rod and having their hook-like upper portions extending above said table; an arcuate pressure plate removably connected to the hooklike ends of said levers and adapted to be moved into and out of said hopper; an arcuate track mounted on said table; a roller mounted on the intermediate portion of said levers and adapted to roll along said track, said rolling engagement of said roller with said track being adapted to move the upper portions of said levers and said pressure plate both upwardly and transversely to expose the upper portion of said hopper to facilitate re-loading thereof; a four-way valve connected to a lilowable medium source and to the opposite ends of said cylinder; a plate-like lever pivoted on said table; a link connecting said plate-like lever and said valve, the upward movement of said plate- -like lever being adapted to introduce a flowable medium into said cylinder -to move said hook-like levers and said pressure plate downwardly and to move said hook-like levers and said pressure plate transversely and upwardly; a second horizontal cylinder; a piston and piston rod slidable in said second cylinder; a plunger on the outer end of said piston rod horizontally movable in said hopper; a second control valve; pipes connecting said second air control valve and said horizontal cylinder and a owable medium source; a lever slidably mounted on one of said rst mentioned levers and connected to said second valve; and a spring connecting said table and one of said rst mentioned levers for moving said hook-like levers transversely to position said pressure plate in said hopper; the downward movement of said last mentioned slidably mounted lever being adapted to operate said last men' tioned valve to cause projection of said plunger into said hopper.

8. In a machine for compressing meat or the like; an elongated supporting table having an elongated central opening; an elongated upwardly opening passaged hopper removably mounted in said opening of said table and having end walls, said hopper having end walls having openings therein; a downwardly extending air cylinder mounted on the bottom of said table; a piston and piston rod in said air cylinder; a pair of elongated hook-like levers connected at their lower ends to said piston rod and having their hook-like upper portions extending above saidY table; an arcuate pressure plate removably connected to the hook-like ends of said levers and adapted to be moved into kand out of said hopper; an arcuate track mounted on said table;`a roller mounted on the intermediate portion o-f said levers and adapted to roll along said track, said rollable engaging of said roller with said track being adapted to guide the upper portions of said levers and said pressure plate both upwardly and transversely to expose the upper portion of said hopper to vfacilitate re-loading thereof; a four-Way valve connected to a compressed air posite ends of said air cylinder; a plattelike lever pivoted on said table; said plate-like lever being operably connected to said valve, the upward movement of said pla-te-l f like leverV being adapted to introduce air into said cylinder to move said hook-like levers and said pressure plate downwardly and to move said hook-like levers and said pressure plate transversely and upwardly; air-actuated mechanism for discharging the compressed meat from said hopper and including a second air-operated piston and cylinder and an air control valve connected Yto said last mentioned cylinder and to a compressed air source; a

slotted link slidably mounted on one of said first mentioned hook-like levers and connected at one end thereof to said second air control valve, and a spring connecting said table and the intermediate portion of one of said rst mentioned hook-like levers for swinging said levers transversely upon downward movement thereof to position said pressure plate in said hopper onlsuch downward v movement; the downward movement of said slotted link being adapted to operate said second air control valve to cause projection of said plunger into and through said hopper to discharge the compressed mass.

References Cited in the file of this patent UNITED STATES PATENTS 868,738 Webb Oct. 22, 1907 2,244,540 Lenzke ..-June 3, 1941 2,280,849 Pocock i Apr. 28, 1942 2,580,833 Piper et al. Jan. 1, 1952 2,847,808 Romine Aug. 19, 1958 2,932,246 Galas Apr. 12, 1960 source andlto the op 

